International Journal of Optical Sciences

Open Access  Subscription Access

In today’s world, communication is one of the most important activities of human beings. For almost every second, we are communicating with each other. We use different kinds of communication in our
daily life, but voice communication is the most important. From the beginning of humankind and technological advancement, many processes have been developed and used for voice communication
in which laser voice communication technology is much more useful because it is worked in the wireless mode, so we are free from many communication-related terms like frequency and all. This laser torch is easily available in our country. In this analysis, we found that the information transmission using laser light is superior in many respects to the traditional communication system. Laser light has higher intensity, and efficiency, also as better visibility and performance quality. It
provides a much simpler communication system and reduces the complexity of wiring. In the longdistance high cost, laser voice transmission systems are not economical for the purpose of ordinary
communication. This paper is based on designing a low-cost voice transmission system using a laser beam which is highly used for information transmission of general conversion in small areas. The
following paper is around 90% cheaper than the currently used voice transmission system.

Htun TT, Yamin H, MZOo. Voice transmission system based onlaser torch; 2019.

Ahmmed MK, Pranti AS, Iqubal AMS. Low-cost voice communication device design using

ordinary laser torch and ldr available in Bangladesh. Int J Electron Electrikcal Eng. 2013;1(4).

Bhattacharya D, Mandal BK, Kim S. Wireless laser torch-based voice transmitter and receiver.

Adv Sci Technol Lett. 2013;30:203-10.

Kaphungkui N, Adhikary A, Paul A, Boruah A, Dutta J. Low noise wireless speaker using laser

and infrared technology for public address system.

Abdulkareem AQ, Hameed IS, Hameed AS. A novel and fully synchronized laser- based wireless

communication system; 2006.

Sparks RT, Pompea SM, Walker CE. The development of a low-cost laser national optical

astronomy observatory. Arizona: Tucson; February 16, 2013. Available from:

https://spie.org/etop/2007/etop07k12IX.pdf.

Vol. 1000. Projects; 2012. ECE Mini project report on laser torch-based voice transmitter and

receiver. Available from: http://1000projects.org/ece-mini-project-report-on-laser-torchbasedvoice-transmitter-and-receiver.html.

International Journal of Optical Sciences

Volume 7, Issue 2

© JournalsPub 2021. All Rights Reserved 16

Phillips P. Laser link communicator, electronics Australia [online]; 1997. Available. Available

from: http://captain.haddock.8m.com/laser/laser1.html.

Pradeep G. Laser torch-based voice transmitter and receiver, circuit ideas, electronics for you

[online]; 2002. Available. Available from: http://www.proddec.org/circuit/jan02_lasertorch.pdf.

Manureet Seehra A, Gupta J, Verma AB. PC to PC LASER communication. Int Res J Eng

Technol (IRJET) e- ISSN: 2395-0056. 2017;04 Issue: 04, April:276-81.

Hamodi HM, Munshid MA, Khalid S. Shibib. Design and implementation of mobile laser data

transceiver. Int J Sci Res Publ. April 2016;6(4):226-31.

Feyzi AKAR, Osman A. Design and implementation of IR and laser-based electronic ciphering

systems. Turk J Electr Eng Comput Sci. 2015:17-27.

Lavate RDS. ’Laser Communication System’ inter- national Journal of Electronics,

Communication Instrumentation Engineering Research and Development. Vol. 4(2); April 24,

p. 19.

Khwaja MK, Vishakh BV. Laser based audio communication system. Int J Eng Sci Res Technol,

[Khwaja. May 2015;4(5):284-9].

Mazalkova M. The laser satellites communications and laser noises. WSEAS Trans Commun.

August 2008;7(8):872-81.

Padayattil GibinM, Poly D, Paulson PK, Thomas M, Jitha J. Highly efficient free space laser

communication. Int J Adv Res Electr Electron Instrum Eng. April 2015;4(4):2037-44.

Bhattacharyya D, Manadal BK, Suntae K. Wireless laser torch- based voice transmitter and

receiver. Adv Sci Technol Lett;30 (ICCA 2013):203-10.

Choudhary Shalin DR, Jain B, 2009. Linear Integrated Circuit. Kumar N. Suresh, 2008.

Electronic circuits and devices.

Navas KA. ’Electronic Lab Manual’ online; 2008. Available from: https://bit.ly/3s4X7Sk.

Dhindsa. Performance analysis of various scheduling and routing techniques for optical network.

Vol. 30 issue 18; 2011. p. 3559-71.